- ホーム
- > 洋書
- > 英文書
- > Science / Mathematics
Full Description
The special edition presents results of recent engineering research and technological advances in applied materials engineering, with an emphasis on the mechanical behaviour and integrity, reliability, and advanced processing technologies of engineering materials. This edition is intended to serve as a valuable reference for researchers, engineers, and students whose activity is related to supporting innovation in materials engineering.
Contents
Preface
Chapter 1: Properties and Processing of Structural Metals
The Properties of Ti-6Al-4V Alloy in Post-Quenched Conditions
Comparative Analysis of Flow Stress Distribution in CM247LC Superalloy during Hot Deformation: A Study Using Gleeble 3800 GTC and Q-Form 3D Simulation
Investigation on the Weldability, Mechanical and Metallurgical Properties of Activated Tig Weldments of Aluminium Alloy 7075
Chapter 2: Fracture Mechanics and Failure Analysis of Materials and Structures
Effects of Fiber Type and Hybridization on the Tensile Properties and Fracture Behavior of Epoxy Composites
A Novel Approach for Modelling Crack Paths in Plate Structures for Dynamic Response Analysis
Effects of UV Radiation-Induced Aging on the Tensile Mechanical Behavior of Polyamide: Implications for Telecommunications and Energy Applications
Comparison of Two Typical Adhesive Fracture Mechanics Considering Hygrothermal Aging
Fracture Risk Modeling in Pyrolyzed Phenolic Resin: Microstructure Prediction and Stress Concentration Factor Evolution via CNN-CVAE and FEM
Chapter 3: Additive Manufacturing
Advanced Biodegradable Polymer Materials and Additive Manufacturing
Optimizing FDM/FFF in Additive Manufacturing: A Review of Process Parameters and Material Impacts on Mechanical Properties
Numerical and Experimental Insights into Crack Propagation in 3D-Printed ABS Using XFEM and Tensile Analysis
Characterizing the Microstructure and Performance of Mechanical Properties in Polylactic Acid/Copper Metal Infill Polymer Composites Fabricated through Fused Deposition Modeling
Investigation on Mechanical Properties of Bio-PETG Filament in FDM 3D Printing
